Inbred maize line CG5NA01

ABSTRACT

An inbred maize line, designated CG5NA01. This invention relates to the plants and seeds of inbred maize line CG5NA01 and to methods for producing maize plants by crossing inbred line CG5NA01 with itself or with another maize line. This invention further relates to hybrid maize seeds and plants produced by crossing inbred line CG5NA01 with another maize line.

FIELD OF THE INVENTION

This invention is in the field of hybrid maize (Zea mays L.) plant breeding, specifically relating to the inbred maze line designated CG5NA01.

BACKGROUND OF THE INVENTION

Of all the crops produced by U.S. farmers, maize is the crop that has the most economic value. Maize is utilized as livestock feed, as a basis for human consumption, as raw material for industry and as raw material for the production of ethanol. The primary use of farmer produced field maize is for livestock feed. This includes feed for hogs, beef cattle, dairy cows and poultry.

Human consumption of maize includes direct consumption of sweet maize and as snacks after extruder cooking, ground maize eaten as grits, maize meal and maize flour. Maize oil is also used as a high grade cooking oil, salad oil or in margarine. Maize is used in the production of some starches and syrups. Another important use is in the production of sweeteners used in soft drinks.

The wet-milling and dry-milling processes also produce maize starch and maize flour that have applications in industry. Some of these uses include building materials, the paper industry, textiles and starches.

The seed of inbred maize line CG5NA01, the plant produced by the inbred seed, hybrid seed produced from the crossing of either inbred to another inbred, the hybrid maize plant grown from said seed, and various parts of the inbred and hybrid maize plant can be utilized for human food, livestock feed, and as a raw material in the industry.

Maize Breeding

Among the major reasons for the economic importance of maize and the large acreages planted to the crop are the hybridization of the maize plant and the continued improvement, by researchers, of the genetic stock that is used to produce the seed grown by farmers. This process has been on-going since its beginning in the early part of the century. The average bushel per acre yield for the American farmer has gone from around 30 in the middle of the 1930's (before hybrids became dominant) to the present average of close to 120. While not all of this four-fold increase can be attributed to genetic improvement (availability of relatively cheap nitrogen and improvements in farming practices are two other components), a good share of it can.

The physical structure of the maize plant provides the maize breeder with opportunities either to cross a plant with another plant or to self-pollinate a given plant. Since the male inflorescence (the tassel) and the female inflorescence (the ear) are physically separated from each other on the plant, the breeder has the ability to mate plants as desired with ease. Similar physical manipulations are used both for cross-pollinating and for self-pollinating a maize plant. The silks (stigmae of maize female florets) are protected from pollination until pollen is collected from the male inflorescence. For cross-pollination, pollen from one plant is distributed on the silks of another plant, while for self-pollination, pollen from a plant is distributed on silks of the same plant. Sib-pollination is a type of cross-pollination in which both plants are closely related genetically. Cross pollinating and self-pollinating techniques are used in the development of inbreds which, when crossed, produce seed of commercially available maize hybrids. Self-pollination and sib-pollination increase the level of inbreeding in progeny plants, leading to fixation of alleles. With continued inbreeding comes a large reduction in vigor and productivity. This phenomenon is know as inbreeding depression. The progeny from the crossing of two inbred lines is a first generation (F₁) hybrid, which has better productivity and agronomic characteristics than either of the inbred parents. This phenomenon is called hybrid vigor or heterosis. Heterosis is reduced markedly in succeeding generations (F₂, F₃, etc.), making it economically justifiable for the farmer to obtain F₁ seed each year for planting. As a result, the hybrid maize seed industry benefits both farmers and producers of hybrid maize seed.

Maize is a highly variable species. For hundreds of years, maize breeding consisted of isolation and selection of open-pollinated varieties. Native Americans evolved many different varieties since the domestication of maize in prehistory. During the course of the nineteenth century, North American farmers and seedsmen developed a wide array of open-pollinated varieties, many of which resulted from an intentional or an accidental cross between two very different types of maize: the Southern Dents, which resemble varieties still grown in Mexico, and the Northern Flints, which seem to have moved from the Guatemalan highlands into the northerly parts of the United States and into Canada. The open-pollinated varieties which were developed during this time were maintained by selection of desirable ears from within the variety for use as foundation seed stock. The only pollination control which was practiced to generate the seed was isolation of the seed crop from pollen from other varieties. Experimentation with inbreeding in open-pollinated varieties showed that it invariably led to a marked reduction in plant vigor and stature, as well as in productivity.

In the early twentieth century, researchers discovered that vigor was restored when a line inbred from an open-pollinated variety was crossed to another, usually unrelated, inbred, and that the resulting hybrids were not only more uniform than open-pollinated varieties, but in many cases were more productive as well. Many of the inbreds developed from open-pollinated varieties were remarkably unproductive, however, which made F₁ seed quite expensive to produce in any volume. By the 1930's seedsmen were offering four-way or double crosses to growers. These consisted of a cross between two single crosses, which in turn were each crosses between two inbred lines. In this way, only a small quantity of single cross seed was required, and the seed sold to growers was produced on F₁ hybrids. Four-way crosses dominated the seed industry until the late 1950's, when three-way crosses were offered to growers, consisting of seed produced on a single cross hybrid with an inbred line as the pollinator. Through the efforts of public and private maize breeders, inbred lines were selected to be more productive and vigorous than the earlier selections from the open-pollinated varieties, and by the early 1970's, single cross seed was readily available to growers. Presently, the overwhelming majority of hybrid maize seed sold in the United States is single cross seed.

The method of hybridization in maize first involves the development of inbred lines. Inbred lines are commonly developed through some variation of pedigree breeding, wherein the plant breeder maintains the identity of each new line throughout the inbreeding process. To initiate the pedigree breeding process, the breeder may make an F₁ cross between two existing inbred lines which complement each other for traits for which improvement is desired, and which cross well with other inbreds from other genetic backgrounds to make commercial hybrids. The F₁ is selfed to provide F₂ seed, which is planted and selfed to produce the S₂ or F₃ generation. S₂ lines are planted ear-to-row, and self-pollinations are made within individual rows. Rows which do not provide a desirable phenotype are discarded. Selected ears are planted ear-to-row, and this process repeats until substantial homozygosity is attained, usually by the S₆ or S₇ generation. Once homozygosity is attained, the inbred can be maintained in open-pollinated isolations.

Maize breeders in general structure their efforts to take advantage of known heterotic patterns; that is, they use their knowledge of which inbreds make good hybrids with which other inbreds, and they ensure that genetic material from these heterotic pools does not cross over into opposing pools. A highly successful heterotic pattern in the United States corn belt has been to use lines from a population known as Iowa Stiff Stalk Synthetic crossed with lines having more or less of a Lancaster background to provide hybrids for growers (Lancaster was a relatively unimportant open-pollinated variety, until it was discovered in the early years of inbred/hybrid development that it provided an outstanding source of lines with good general combining ability). Other heterotic patterns have also been developed, primarily for the northern and southern regions of the United States. Breeders have understandably been reluctant to use competitive private company hybrids as source material, because, in such instances, usually it will not be known where derived lines fit in a heterotic pattern (Hallauer et al., "Corn Breeding", Corn and Corn Improvement pp. 463-564, (1988). As well, using competitors' hybrids as source germplasm risks the dispersal of existing heterotic patterns: many breeders feel that introducing, for example, Lancaster material into an Iowa Stiff Stalk background would lessen their ability to develop lines which could be crossed to Lancaster-derived inbreds. Unless it is known that a competitor's hybrid was genetically distinct from a breeder's own material, it is considered to be a more risky approach to improvement of a heterotic pool than utilizing known material.

While a maize breeder might anticipate that a source population is capable of providing a certain degree of variation, that variation first has actually to occur, and then to be identified by the breeder. Most variants are expected to fall between the parental values for any given trait; only very exceptional individuals will exceed the better parent (or be worse than the worse parent) for a trait. This is especially true when a trait is determined by a large number of genes, each having a relatively small effect on the trait. Most traits of interest to the maize breeder, including productivity, maturity, and stalk and root quality, are such traits. To complicate matters further, high negative correlations occur in maize between productivity, maturity, and stalk quality. A breeder may be able to improve yield, but at the expense of stalk quality or later maturity. The occurrence of an individual with a combination of superior traits is very rare. Even if the individual does occur in a sample of the source population, the breeder often lacks the resources required to identify that individual. Traits of low heritability, such as productivity, must be evaluated in several locations to be accurately evaluated. Only a very limited number of genotypes can be tested because of constraints upon resources. Thus, a breeder may miss the desired individual, simply because he cannot evaluate all genotypes produced by the source population.

A valuable lesson was learned years ago about the expectation of the success of progeny improvement methods. The inbred Wf9 was developed in Indiana, and released to seed growers in the mid-1930's. Despite having several agronomic deficiencies, it became the most widely used inbred during the double-cross era of maize seed production. It naturally became the basis for numerous public improvement projects. Despite having abundant resources placed with the objective of developing an improved Wf9, no inbred from the public sector with a Wf9 background ever supplanted Wf9 in seed production fields. At the time of the initiation of these Wf9 progeny improvement programs, such an effort was obvious to try. However, it became apparent over the course of years that success from this effort was far from obvious, and Wf9 eventually was supplanted by unrelated lines in commercial production. A similar story can be told about A632, at one time the predominant seed line for Northern Corn Belt hybrids. Many public breeders tried to improve on A632, but no A632-derived line from the public sector achieved the prominence of A632, and it was eventually supplanted by a completely unrelated inbred. More recently, B73 improvement programs have been tried, but few B73-derived progenies have been commercially accepted.

These examples show clearly that, rather than being an obvious exercise in (for example) crossing the two best Iowa Stiff Stalk lines with each other, and reliably being able to pull out an even better progeny, maize breeding is inherently unpredictable. Breeders employ strategies taught by Hallauer et al. and Meghji et al., Crop Science 24, 545-549 (1984), such as choosing the best available materials to provide populations, deriving progenies through a pedigree breeding scheme, and testing in replicated tests across environments, in order to maximize the likelihood of success, not to ensure it.

Even restricting efforts to known heterotic patterns, a breeder can never be certain that a given cross will provide an improved inbred. The nature of heterosis is not at all well understood. No one knows why, for example, B73×Mo17 was such an advance in productivity over previous hybrids. To say they are heterotic is uninformative: it merely describes what has been observed without explaining the phenomenon. Part of the uncertainty results from the mode of inheritance of many traits of interest, and the mathematics of genetically segregating populations. For example, the trait of chief interest in maize, productivity of marketable grain, is not simply inherited, but instead derives from the action of many genes of relatively small effect. This type of inheritance, known as quantitative inheritance, has been extensively studied from a theoretical standpoint, and certain aspects of the behavior of segregating populations can be mathematically predicted. One finding is that the probability of obtaining a specific homozygous inbred decreases exponentially with the number of segregating loci for a given trait. R. W. Allard (Principles of Plant Breeding, John Wiley & Son, New York (1960) p.68) teaches that, from a population segregating at n loci, with each locus having only two variants, 2^(n) homozygous genotypes are possible. Thus, if a source population were segregating at only twenty loci, the probability of obtaining any given inbred genotype from this population is less than one in a million. The probability decreases very quickly with more heterozygous loci. Also, if there are loci with more than two variants, the number of possible homozygotes increases and the probability of retrieving a given inbred genotype decreases. The number of loci which affect the trait of gross productivity has been variously estimated at 10 to 1000. In addition, a breeder must pay attention to agronomic traits such as maturity, stalk quality, root quality, grain quality, resistance to diseases and insects, and many others, some of which appear to be negatively correlated with productivity. The total number of genetic loci in the maize genome has been conservatively estimated to be greater than 10⁵.

The objective of a plant breeder when developing a new inbred line of maize is to combine the highest number of desirable alleles into a single isolate as possible. No parent line contains all desirable alleles at all loci, and the breeder hopes to introgress a higher frequency of favorable alleles into resulting progenies. However, with the current state of the art, a breeder is generally not able to define which allele at any given locus is desirable, and for most traits of interest, he does not have information about which genetic loci are involved in influencing the trait. His primary tool to measure the genotypes of progenies is phenotypic evaluation. The phenotype of a plant is influenced both by its genotype and the environment in which it is grown, so the phenotypic measure of a plant is only an indirect measure of its genotype. When environmental effects are large relative to the genotypic effects, it is said that the trait has low heritability. The breeder must evaluate traits of low heritability in many different environments in order to be reasonably sure that he has an accurate estimate of the genotypic effect. Productivity of marketable grain is such a trait, according to years of breeding experience and numerous scientific publications.

The requirement of evaluating genotypes in different environments places serious restraints on the maize breeder in terms of the number of genotypes the breeder will be able to evaluate. The large number of possible genotypes, coupled with the small sample size from a segregating population, make it uncertain that a breeder will be able to invent a new maize inbred which is a measurable improvement over its parents. The invention of new inbred lines and of new hybrids is extremely important to the companies in the hybrid seed maize industry that have investments in research. Much effort is given to the research and development of these inbreds and hybrids. The breeding and selection of inbred lines is a highly specialized skill. It involves many years of inbreeding, skilled selection, correct statistical testing, and decision making.

Techniques involving the tissue culture of maize cells and plant parts has been developed to the point that it is now possible to regenerate plants from nearly all genotypes, by varying the culture media in which the cells or parts are cultured. Based upon experience with other inbreds with somewhat similar genetic background, it is anticipated that inbred maize line CG5NA01 will readily provide regenerable cells in culture of cells or plant parts.

SUMMARY OF THE INVENTION

According to the invention, there is provided a novel inbred maize line, designated CG5NA01. This invention thus relates to the seeds of inbred maize line CG5NA01, to the plants of inbred maize line CG5NA01, and to methods for producing a maize plant produced by crossing the either inbred line CG5NA01 with itself or another maize line. This invention further relates to hybrid maize seeds and plants produced by crossing the inbred line either CG5NA01 with another maize line.

DEFINITIONS

This section will outline the definitions of terms used herein.

The following are traits evaluated in Table 1:

Plant height is self-explanatory.

Ear height is the height from the ground of the point of exsertion from the stalk of the highest ear.

Initial pollen is stated as number of days from planting to the first pollen shed observed in the variety.

Initial silk is stated as number of days from planting to the first silks observed in the variety.

Mid pollen is stated both as number of days and as heat units from planting to the date of full pollen shed observed in the variety. Heat units are calculated on a daily basis as ((Maximum temperature in degrees Fahrenheit--Minimum temperature in degrees Fahrenheit)/2)--50, with the constraint that temperatures above 86° F. are counted as 86° F., and temperatures below 50° F. are counted as 50° F.

Mid silk is stated as number of days and as heat units from planting to the full silking observed in the variety. Heat units are calculated as above.

Tassel size rating describes the size of the tassel, in which a rating of 1 indicates a small tassel and 9 indicates a large tassel.

Kernels per kilogram is self-explanatory.

Percent of large kernels is the percentage of kernels which pass through a 24/64 inch round sizing screen but not through a 21/64 inch round sizing screen.

Percent of medium kernels is the percentage of kernels which pass through a 21/64 inch round sizing screen but not through an 18/64 inch round sizing screen.

Percent of small kernels is the percentage of kernels which pass through a 18/64 inch round sizing screen but not through a 33/128 inch round sizing screen.

Percent of round kernels is the percentage of kernels which do not pass through a 13/64 inch slot sizing screen.

Percent of discard kernels is the percentage of kernels which pass through a 33/128 inch round sizing screen plus the percentage of kernels which do not pass through a 26/64 inch round sizing screen.

Number of 80000 kernel units per hectare accounts for yield and and seed sizes, including discard seed.

The following traits are evaluated in Tables 2a through 2d:

Value. Value is a simple index which takes into account yield of a hybrid maize variety, market price for grain maize, and the cost of drying to storage moisture (15.5%). It is expressed in dollars per acre.

Yield (Bushels/Acre). Yield in bushels/acre is the actual yield of the grain at harvest adjusted to 15.5% moisture.

Percent Moisture. The percent moisture is the water content by weight of the grain at harvest.

Percent Erect. The percent erect, a measure of standability, is the percentage of plant stalks that are not broken below the ear at the time of harvest.

Percent Erect Push. Another measure of standability, this is the percentage of plant stalks that are not broken below the ear after having been manually pushed.

Harvest Roots. Harvest roots is a visual rating. It is based on the number of plants that are root-lodged (leaning from the vertical at an approximate 30° angle or greater) at the time of harvest. The ratings range from 1 to 9. a rating of 1 equals no plants root-lodged and a rating of 9 equals all plants root-lodged.

Percent Dropped Ears. The percent dropped ears is the percentage of plants whose ears have fallen to the ground at the time of harvest.

Intactness. Intactness is a visual rating based on the percentage of leaf and stalk matter remaining above the top ear at harvest. The ratings range from 1 to 9. A rating of 1 equals all matter remaining (intact) and a rating of 9 equals all matter gone or the stalk broken over just above the ear.

Percent Green or Staygreen. The percent green is the percentage of the total ear, leaf and stalk matter still green at the time of data collection, approximately physiological maturity.

Plant height is the height of the plant from the ground to the tip of the tassel.

Ear height is the height from the ground of the point of exsertion from the stalk of the highest ear.

The following traits are provided in the inbred description:

Plant height, ear height, number of primary tassel branches, leaf blade width, number of kernel rows, cob color, cob diameter, ear diameter, and ear length are self-explanatory.

Leaf attitude describes the manner in which leaves of an inbred variety of maize are arrayed on the plant.

Tassel branch shape describes how the tassel branches are arrayed in the male inflorescence.

Anthocyanin pigmentation in various plant parts (glumes, glume bands, anthers, silks, leaf sheaths, internodes, brace roots) describes the intensity of red or purple coloration in these plant parts.

Ear shape describes the amount of taper found in the ears, which can range from no taper (cylindrical shape of the ears), to much taper (conical ears).

Grain type describes the flintiness of the grain, which can range from fully flint kernel type to floury kernel type.

Flowering information describes the flowering time relative to appropriate check inbred lines of maize.

Flowering synchrony describes whether the plants of the inbred typically silk before pollen shed, silk at the same time as pollen shed, or silk after pollen shed.

DETAILED DESCRIPTION OF THE INVENTION

Inbred maize line CG5NA01 is a yellow flint-dent maize inbred line with superior characteristics and is a good parental line in crosses for producing first generation (F₁) hybrid maize. Inbred maize line CG5NA01 is a proprietary inbred of Ciba Seeds.

Inbred maize line CG5NA01 was selected for uniformity and agronomic traits using standard pedigree ear-row selection at Bloomington, Ill. and Kaunakakai, Hi. The source population of CG5NA01 was a proprietary synthetic of elite lines of Lancaster derivation. The inbred was evaluated as a line and in numerous crosses by the Bloomington Research Station and other research stations across the central and southern maize belt. Thus the line was evaluated for general and specific combining ability.

Inbred maize line CG5NA01 is adapted to the central maize belt and can be used advantageously in producing hybrids that are from approximately 110 day relative maturity to 125 day relative maturity based on the Minnesota Relative Maturity Rating System for harvest moisture of the grain. The inbred sheds pollen well but has deficiencies as a seed parent, and is preferred as the pollen line in hybrid production. This line produces relatively tall hybrids with high yielding ability for maturity, good grain quality, good stalk quality and average root quality.

Inbred maize line CG5NA01 has shown uniformity and stability for all traits as described in the following variety description information. It has been self-pollinated and ear-rowed a sufficient number of generations with careful attention paid to uniformity of plant type to insure relative homozygosity and phenotypic stability. The line has been increased by hand and in isolated fields with continued observations for uniformity. No variant traits have been observed or are expected in CG5NA01.

Inbred maize line CG5NA01 is slightly taller than average for lines of its flowering maturity, with ear placement approximately one-half the total plant height. It tends to produce slightly more than one ear per plant. The main ear tends to be longer than average for its flowering maturity, usually with twelve rows of large kernels. The ear is tapered from butt to tip. The silk color of CG5NA01 is green, the cob color is white, and the grain is a bright yellow flint-dent with excellent quality. CG5NA01 flowers relatively late. Silking and pollen shed are synchronous. The leaf color of CG5NA01 is light green, and the leaf attitude is semi-upright. Leaves are broad and tend to clasp the stalk. The tassel of CG5NA01 has approximately six tassel branches, which are semi-erect with respect to the main tassel axis but droop at the tips of the branches, and the anthers are yellow. Pollen shed is good. All green plant parts are typically free of anthocyanin pigmentation.

CG5NA01 is resistant to northern corn leaf blight Race 1 (Exserohilum turcicum), moderately resistant to southern corn leaf blight (Bipolaris maydis), resistant to common rust (Puccinia sorghi), moderately resistant to eyespot (Kabatiella zeae), susceptible to common smut (Ustilago maydis), and resistant to Stewart's wilt and leaf blight (Erwinia stewarti).

                                      TABLE 1                                      __________________________________________________________________________     Agronomic comparisons of CG5NA01 with LH126Ht, LH212, and LH216.                              CG5NA01                                                                             LH126Ht                                                                             LH212                                                                              LH216                                                                              Locations                                     __________________________________________________________________________     Number of 80000 kernel units per                                                              98.8 153.1                                                                               190.2                                                                              108.7                                                                              6                                             hectare                                                                        Percent of round kernels                                                                      78   32.8 43.4                                                                               64  4                                             Percent of large kernels                                                                      87   62.8 38.9                                                                               61  4                                             Percent of medium kernels                                                                     11.7 33   47.9                                                                               33  4                                             Percent of small kernels                                                                      1.7  4.5  13.5                                                                               6   4                                             Percent of discard kernels                                                                    4    2.3  3.5 2   4                                             Kernels per kilogram                                                                          2829 3278 4050                                                                               3194                                                                               4                                             First pollen (days)                                                                           74.4 71.8 71.2                                                                               71.7                                                                               4                                             Mid pollen (days)                                                                             76   74   72.6                                                                               72.7                                                                               4                                             Mid pollen (heat units)                                                                       1658 1608 1554                                                                               1584                                                                               4                                             First silk (days)                                                                             73.3 71.9 71.2                                                                               72.9                                                                               4                                             Mid silk (days)                                                                               75.3 73.9 73.7                                                                               74.8                                                                               4                                             Mid silk (heat units)                                                                         1645 1606 1577                                                                               1630                                                                               4                                             Plant height cm.                                                                              193  216  191 173 4                                             Ear height cm. 79   89   89  81  4                                             __________________________________________________________________________

CG5NA01 is relatively unproductive as a seed parent, and produces predominantly large round seed, limiting its use as a seed line. Table 1 compares CG5NA01 with LH126Ht, LH212 and LH216 for production and agronomic traits. While not closely related by pedigree to these lines, CG5NA01 is expected to be used in a similar way to these inbreds to produce hybrids for commercial sale.

This invention is also directed to methods for producing a maize plant by crossing a first parent maize plant with a second parent maize plant wherein the first or second maize plant is an inbred maize plant from inbred CG5NA01. Further, both first and second parent maize plants may be from either inbred line CG5NA01. Thus, any methods using the inbred maize line CG5NA01 are part of the invention, including backcrosses, hybrid breeding, and crosses to populations. Any plants produced using inbred maize line CG5NA01 as a parent are within the scope of this invention. The best use of the inbred maize line CG5NA01 is for the production of first generation (F₁). maize hybrid seeds which produce plants with superior characteristics, by crossing either CG5NA01 (either as a seed line or as a pollen line) to another, distinct inbred line, both for sale to growers to produce market grain, and for inbreeding and development of improved inbred lines by its proprietors. A second important use of this inbred line is for the production of inbred seed of CG5NA01, by crossing CG5NA01 with another plant of CG5NA01, or by directly self-pollinating a plant of CG5NA01.

As used herein, the term "plant" includes plant cells, plant protoplasts, plant cell of tissue culture from which maize plants can be regenerated, plant calli, plant clumps, and plant cells that are intact in plants or parts of plants such as pollen, flowers, kernels, ears, cobs, leaves, husks, stalks, and the like. Thus another aspect of this invention is to provide for cells which upon growth and differentiation produce the inbred line CG5NA01.

The results in Tables 2 compare CG5NA01 hybrids to other Ciba Seeds hybrids, both commercial and experimental. In each comparison, the hybrids have an inbred in common which is not CG5NA01. Each comparison shows the effect of substituting CG5NA01 for a different inbred; in this way, an idea of general combining ability of CG5NA01 relative to a range of other inbreds is obtained. The data were averaged across locations and replications and include experiments grown by Ciba Seeds maize research programs in 1992, 1993, 1994 and 1995.

Table 2a compares a CG5NA01 hybrid with a commercial hybrid for Ciba Seeds. The general background of the common inbred is B14, B37 and B73. The data show that the CG5NA01 hybrid has higher yield than the commercial hybrid, it is wetter, and has equivalent stalks, roots and intactness, and test weight. The CG5NA01 hybrid is better for staygreen and is taller than the commercial hybrid. The overall value of the CG5NA01 hybrid in comparison with the commercial hybrid is the same.

                                      TABLE 2a                                     __________________________________________________________________________     Comparison of CG5NA01 hybrid 1 with non-CG5NA01 hybrid 2. Hybrids 1 and 2      have a line of B14,                                                            B37 and B73 background in common which is not CG5NA01.                                       Percent                                                                            % Erect                                                                            % Erect                                                                            Root H                                                                             Dropped                                                                             Test                                                                               Intact                                                                             Percent                                                                            Plt Hgt                                                                            Ear Hgt                     Hybrid                                                                               Value                                                                              Yield                                                                              Moist                                                                              Stalks                                                                             Push                                                                               Rating                                                                             Ears (%)                                                                            Wgt/bu                                                                             Rating                                                                             Green                                                                              Inches                                                                             Inches                      __________________________________________________________________________     1     383.42                                                                             168.00                                                                             20.68                                                                              96.60                                                                              82.48                                                                              1.96                                                                               0.10 57.22                                                                              4.07                                                                               26.28                                                                              99.24                                                                              42.05                       2     388.32                                                                             163.97                                                                             18.14                                                                              96.90                                                                              83.29                                                                              1.88                                                                               0.16 56.96                                                                              3.86                                                                               20.93                                                                              93.58                                                                              42.13                       #locs.                                                                               57  57  57  29  39  13  15   52  43  29  19  19                          LSD (0.01)                                                                           14.86                                                                              6.36                                                                               0.70                                                                               1.61                                                                               5.92                                                                               1.17                                                                               0.48 0.71                                                                               0.62                                                                               6.86                                                                               2.88                                                                               2.14                        LSD (0.05)                                                                           11.17                                                                              4.78                                                                               0.52                                                                               1.19                                                                               4.42                                                                               0.84                                                                               0.35 0.53                                                                               0.47                                                                               5.09                                                                               2.10                                                                               1.56                        LSD (0.10)                                                                           9.32                                                                               3.99                                                                               0.44                                                                               0.99                                                                               3.68                                                                               0.68                                                                               0.28 0.45                                                                               0.39                                                                               4.23                                                                               1.74                                                                               1.29                              4.90                                                                               -4.03                                                                              -2.54                                                                              0.30                                                                               0.81                                                                               -0.08                                                                              0.05 -0.26                                                                              -0.21                                                                              -5.34                                                                              -5.66                                                                              0.08                        CG5NA01                                                                              same                                                                               better                                                                             wetter                                                                             same                                                                               same                                                                               same                                                                               same same                                                                               same                                                                               better                                                                             taller                                                                             same                        hybrid is:                                                                     __________________________________________________________________________

Table 2b compares a CG5NA01 hybrid with an important commercial hybrid for Ciba Seeds. The general background of the common inbred is B73. The CG5NA01 hybrid yields more, is wetter, and has better testweight, intactness and staygreen. It is a taller hybrid with similar ear placement.

                                      TABLE 2b                                     __________________________________________________________________________     Comparison of CG5NA01 hybrid 1 with non-CG5NA01 hybrid 2. Hybrids 1 and 2      have a line of B73                                                             background in common which is not CG5NA01.                                                   Percent                                                                            % Erect                                                                            % Erect                                                                            Root H                                                                             Dropped                                                                             Test                                                                               Intact                                                                             Percent                                                                            Plt Hgt                                                                            Ear Hgt                     Hybrid                                                                               Value                                                                              Yield                                                                              Moist                                                                              Stalks                                                                             Push                                                                               Rating                                                                             Ears (%)                                                                            Wgt/bu                                                                             Rating                                                                             Green                                                                              Inches                                                                             Inches                      __________________________________________________________________________     1     376.57                                                                             162.72                                                                             19.74                                                                              94.95                                                                              76.10                                                                              1.80                                                                               0.40 57.04                                                                              4.67                                                                               28.50                                                                              101.58                                                                             44.35                       2     377.56                                                                             158.73                                                                             17.76                                                                              94.56                                                                              72.29                                                                              1.96                                                                               0.41 56.55                                                                              5.01                                                                               21.12                                                                              94.30                                                                              44.96                       #locs.                                                                               116 116 117 68  73  32  38   110 74  52  39  39                          LSD (0.01)                                                                           10.47                                                                              4.18                                                                               0.33                                                                               1.51                                                                               6.52                                                                               0.49                                                                               0.44 0.35                                                                               0.43                                                                               4.19                                                                               6.17                                                                               1.83                        LSD (0.05)                                                                           7.92                                                                               3.16                                                                               0.25                                                                               1.14                                                                               4.91                                                                               0.36                                                                               0.33 0.26                                                                               0.32                                                                               3.14                                                                               4.60                                                                               1.36                        LSD (0.10)                                                                           6.63                                                                               2.65                                                                               0.21                                                                               0.95                                                                               4.11                                                                               0.30                                                                               0.27 0.22                                                                               0.27                                                                               2.62                                                                               3.83                                                                               1.14                        LSD (0.50)                                                                           2.70                                                                               1.08                                                                               0.08                                                                               0.39                                                                               1.67                                                                               0.12                                                                               0.11 0.09                                                                               0.11                                                                               1.06                                                                               1.55                                                                               0.46                        Diff. 1.00                                                                               -3.99                                                                              -1.98                                                                              -0.39                                                                              -3.81                                                                              0.16                                                                               0.01 -0.49                                                                              0.35                                                                               -7.38                                                                              -7.28                                                                              0.60                        CG5NA01                                                                              same                                                                               better                                                                             wetter                                                                             same                                                                               same                                                                               same                                                                               same better                                                                             better                                                                             better                                                                             taller                                                                             same                        hybrid is:                                                                     __________________________________________________________________________

Table 2c compares a CG5NA01 hybrid with a commercial hybrid from Holden's. The general background of the common inbred is B73. The CG5NA01 hybrid has better test weight and staygreen compared to the commercial hybrid, but is slightly wetter. The CG5NA01 hybrid is taller, with similar ear placement.

                                      TABLE 2c                                     __________________________________________________________________________     Comparison of CG5NA01 hybrid 1 with non-CG5NA01 hybrid 2. Hybrids 1 and 2      have a line of B73                                                             background in common which is not CG5NA01.                                                   Percent                                                                            % Erect                                                                            % Erect                                                                            Root H                                                                             Dropped                                                                             Test                                                                               Intact                                                                             Percent                                                                            Plt Hgt                                                                            Ear Hgt                     Hybrid                                                                               Value                                                                              Yield                                                                              Moist                                                                              Stalks                                                                             Push                                                                               Rating                                                                             Ears (%)                                                                            Wgt/bu                                                                             Rating                                                                             Green                                                                              Inches                                                                             Inches                      __________________________________________________________________________     1     379.74                                                                             161.96                                                                             18.74                                                                              95.48                                                                              72.54                                                                              1.83                                                                               0.54 56.44                                                                              5.80                                                                               24.38                                                                              104.57                                                                             40.36                       2     381.78                                                                             161.03                                                                             18.12                                                                              98.21                                                                              66.69                                                                              1.17                                                                               0.00 55.33                                                                              6.60                                                                               5.88                                                                               98.21                                                                              39.64                       #locs.                                                                               13  13  13  6   8   3   5    12  5   4   7   7                           LSD (0.01)                                                                           40.92                                                                              17.13                                                                              0.87                                                                               3.25                                                                               37.86                                                                              3.31                                                                               1.65 0.90                                                                               3.38                                                                               34.94                                                                              8.18                                                                               5.82                        LSD (0.05)                                                                           29.19                                                                              12.22                                                                              0.62                                                                               2.07                                                                               25.59                                                                              1.43                                                                               0.99 0.64                                                                               2.04                                                                               19.04                                                                              5.40                                                                               3.84                        LSD (0.10)                                                                           23.68                                                                              9.99                                                                               0.50                                                                               1.62                                                                               20.50                                                                              0.97                                                                               0.76 0.52                                                                               1.57                                                                               14.08                                                                              4.29                                                                               3.05                        LSD (0.50)                                                                           9.31                                                                               3.90                                                                               0.20                                                                               0.59                                                                               7.69                                                                               0.27                                                                               0.27 0.20                                                                               0.54                                                                               4.58                                                                               1.58                                                                               1.13                        Diff. 2.04                                                                               -0.93                                                                              -0.63                                                                              2.73                                                                               -5.85                                                                              -0.67                                                                              -0.54                                                                               -1.11                                                                              0.80                                                                               -18.50                                                                             -6.36                                                                              -0.71                       CG5NA01                                                                              same                                                                               same                                                                               wetter                                                                             worse                                                                              same                                                                               same                                                                               same better                                                                             same                                                                               better                                                                             taller                                                                             same                        hybrid is:                                                                     __________________________________________________________________________

Table 2d compares a CG5NA01 hybrid with a commercial hybrid for Ciba Seeds. The background of the common inbred is B73. The CG5NA01 hybrid yields much better than the commercial hybrid, has better value and test weight, is wetter, and has similar agronomic traits.

                                      TABLE 2d                                     __________________________________________________________________________     Comparison of CG5NA01 hybrid 1 with non-CG5NA01 hybrid 2. Hybrids 1 and 2      have a line of B73                                                             background in common which is not CG5NA01.                                                   Percent                                                                            % Erect                                                                            % Erect                                                                            Root H                                                                             Dropped                                                                             Test                                                                               Intact                                                                             Percent                                                                            Plt Hgt                                                                            Ear Hgt                     Hybrid                                                                               Value                                                                              Yield                                                                              Moist                                                                              Stalks                                                                             Push                                                                               Rating                                                                             Ears (%)                                                                            Wgt/bu                                                                             Rating                                                                             Green                                                                              Inches                                                                             Inches                      __________________________________________________________________________     1     359.13                                                                             153.10                                                                             18.77                                                                              96.67                                                                              84.18                                                                              1.33                                                                               0.30 56.16                                                                              5.67                                                                               28.75                                                                              93.50                                                                              41.00                       2     340.35                                                                             143.29                                                                             17.87                                                                              95.18                                                                              83.42                                                                              1.67                                                                               1.32 55.50                                                                              6.11                                                                               32.50                                                                              96.00                                                                              43.00                       #locs.                                                                               16  16  16  9   10  3   6    15  9   4   6   6                           LSD (0.01)                                                                           30.44                                                                              12.42                                                                              1.33                                                                               5.01                                                                               32.51                                                                              3.31                                                                               4.45 1.21                                                                               1.13                                                                               24.94                                                                              12.44                                                                              5.10                        LSD (0.05)                                                                           22.02                                                                              8.98                                                                               0.96                                                                               3.45                                                                               22.63                                                                              1.43                                                                               2.84 0.87                                                                               0.78                                                                               13.59                                                                              7.93                                                                               3.25                        LSD (0.10)                                                                           18.11                                                                              7.39                                                                               0.79                                                                               2.78                                                                               18.34                                                                              0.97                                                                               2.23 0.72                                                                               0.63                                                                               10.05                                                                              6.22                                                                               2.55                        LSD (0.50)                                                                           7.14                                                                               2.91                                                                               0.31                                                                               1.05                                                                               7.02                                                                               0.27                                                                               0.80 0.28                                                                               0.24                                                                               3.27                                                                               2.24                                                                               0.92                        Diff. -18.79                                                                             -9.81                                                                              -0.89                                                                              -1.49                                                                              -0.76                                                                              0.33                                                                               1.02 -0.66                                                                              0.44                                                                               3.75                                                                               2.50                                                                               2.00                        CG5NA01                                                                              better                                                                             better                                                                             wetter                                                                             same                                                                               same                                                                               same                                                                               same same                                                                               same                                                                               same                                                                               same                                                                               same                        hybrid is:                                                                     __________________________________________________________________________

Restriction fragment length polymorphisms of CG5NA01 and several disclosed inbreds of similar usage patterns are given in Table 3. Inbred CG5NA01 is quite distinct from these lines.

                                      TABLE 3                                      __________________________________________________________________________     Restriction fragment length polymorphisms of CG5NA01 and inbreds of            similar usage.                                                                 Probe CG5NA01                                                                             LH210                                                                              LH212                                                                              LH213                                                                              LH216                                                                              PHJ33                                                                              PHJ90                                                                              PHK58                                                                              PHR63                                                                              PHV78                               __________________________________________________________________________     B05.47                                                                               DD   EE  DD  DD  DD  DD  DD  DD  DD  DD                                  B05.62                                                                               AA   DD  AA  AA  DD  DD  DD  AA  DD  DD                                  B05.71                                                                               CC   CC  DD  CC  CC  CC  CC  CC  CC  CC                                  B06.32                                                                               EE       CC  CC  EE  CC  CC  CC  CC  CC                                  B07.13                                                                               DD   AA  BB  BB  AA  GG  GG  GG  BB  GG                                  B07.71                                                                               FF   II  II  II  II  DD  DD  DD  CC  DD                                  B08.15                                                                               CC   CC  BB  BB  BB  BB  CC  CC  CC  CC                                  B14.07                                                                               AA   DD  DD  DD  DD  EE  BB  BB  DD  DD                                  B15.21                                                                               AA   CC  AA  AA  CC  AA  AA  AA  AA  AA                                  B16.06                                                                               FF   FF  DD  FF  FF  DD  FF  FF  FF  FF                                  N053  DD   AA  AA  AA  AA  CC  AA  FF  DD  CC                                  N098  BB   CC  BB  CC  CC  CC  CC  EE  CC  CC                                  N107  DD   DD  BB  AA  AA  FF  BB  DD  DD  CC                                  N110  CC   CC  CC  CC  AA  CC  CC  CC  CC                                      N114  DD   EE  CC  EE  EE  FF  FF  FF  CC  GG                                  N120  DD   BB  DD  BB  BB  DD  EE  EE  EE  EE                                  N211  CC   BB  CC  BB  BB  CC  CC  BB  CC  CC                                  N223  DD   FF  DD  DG  GG  CC  GG  DD  GG  CC                                  N234  HH   FF  HH  HH  FF  GG  GG  HH  GG  AA                                  N235  DD   DD  DD  AA  DD  DD  DD  DD  DD  DD                                  N237  HH   EE  EE  EE  EE  EE  BB  EE  EE  EE                                  N238  BB   BB  BB  DD  BB  DD  FF  DD  DD  DD                                  N239  CC   EE  CC  EE  EE  EE  CC  CC  CC  CC                                  N247  EE   BB  EE  EE  EE  BB  EE  EE  EE  EE                                  N252  BB   BB  BB  BB  BB  BB  BB  BB  CC  BB                                  N258  CC   CC  CC  CC  CC  CC  DD  CC  CC  CC                                  N260  EE   BB  EE  EE  BB  CC  FF  EE  FF  CC                                  N262  FF   HH  FF  HH  HH  HH  BB  FF  BB  FF                                  N264  FF   HH  FF  FF  HH  AA  AA  AA  HH  HH                                  N266  GG   DD  EE  CC  BB  EE  GG  GG  EE  CC                                  N268  II       II  EE  EE      AA  FF  AA  AA                                  N270  EE   JJ  CC  EE  AA  CC  EE  CC  EE  EE                                  N271  CC   CC  CC  CC  CC  CC  AA  BB  AA  CC                                  N274  AA   BB  CC  BB  BB  BB  BB  CC  BB  BB                                  N283  EE   AA  AA  AA  EE  AA  AA  AA  AA  AA                                  N284  AA   AA  CC  AA  AA  DD  DD  DD  DD                                      N285  DD   DD  DD  CC  DD  DD          DD  CC                                  N286  BB   HH  HH  HH  HH  EE  EE  EE  EE  EE                                  N288  GG   GG  GG  GG  GG  AA  GG  AA  FF  GG                                  N290  DD   BB  BB  BB  BB  BB  BB  DD  DD  DD                                  N291  BC   AA  AA  AA  AA  AA  AA  AA  AA  AA                                  N295  JJ   HH  GG  HH  HH  DD  HH  HH  HH  HH                                  N296  HH   HH  GG  HH  HH  BB  CC  HH  HH  HH                                  N373  AA   DD  AA  AA  DD  AA  DD  DD  AA  AA                                  N398  DD   FF  DD  DD  FF  FF  AA  DD  BB                                      N407  CC   EE  CC  EE  EE  FF  CC  EE  FF  FF                                  N409  HH   BB  DD  BB  DD  GG  BB  BB  BB  BB                                  N448  CC   AA  CC  CC  CC  AA  AA  CC  AA  AA                                  N451  BB   EE  BB  EE  EE  BB  EE  BB  BB  BB                                  N457  AA   CC  AA  AA  AA  AA  CC  CC  CC  AA                                  N560  DD   BB  BB  BB  DD  BB  EE  BB  DD  BB                                  N585  FF   CC  FF  FF  FF  BB  BB  FF  BB  BB                                  N600  BB   EE  EE  BE  EE  EE  BB  EE  EE  EE                                  PBX1  GG   GG  FF  GG  GG  AA  GG  AA  GG  AA                                  U019  CC   CC  DD  DD  CC  CC  CC  CC  CC  CC                                  U032  BB   AA  AA  AA  AA  AA  DD  DD  DD  DD                                  U048  EE   EE  EE  EE  HH  EE  EE  EE  HH  FF                                  U058  DD   DD  DD  DD  DD  DD  DD  DD  DD  DD                                  U060  CC   AA  CC  CC  AA  AA  AA  CC  CC  AA                                  U084  AA   DD  AA  AA  AA  DD  DD  DD  DD  DD                                  U089  BB   BB  BB  BB  EE  BB  DD  BB  DD  EE                                  U090  BB   CC  BB  BB  BB  BB  BB  CC  CC  BB                                  U109  EE   EE  DD  EE  EE  CC  BB  EE  CC  CC                                  U130  CC   BB  BB  BB  BB  EE  EE  BB  EE  BB                                  U139  FF   CC  DD  FF  CC  CC  DD  CC  BB  DD                                  U166  CC   CC  CC  AA  CC  CC  CC  CC  CC  CC                                  U168  DD   EE  DD  EE  EE  AA  AA  AA  AA                                      Number of  44  30  36  41  48  44  35  42  39                                  loci not                                                                       matching                                                                       CG5NA01                                                                        Total      65  67  67  67  66  66  66  67  63                                  number of                                                                      loci                                                                           % dissimilar                                                                              68% 45% 54% 61% 70% 67% 53% 63% 62%                                 to CG5NA01                                                                     __________________________________________________________________________

Seeds of inbred CG5NA01 have been placed on deposit at the American Type Culture Collection (ATCC), Rockville, Md., 20852, under deposit accession number 97477 on Mar. 13, 1996.

Although the foregoing invention has been described in some detail by way of illustration and example for purposes of clarity and understanding, it will be obvious that certain changes and modifications may be practiced within the scope of the invention, as limited only by the scope of the appended claims. 

What is claimed is:
 1. An inbred maize line designated CG5NA01 (ATCC Designation 97477).
 2. A plant of the inbred maize line designated CG5NA01 of claim
 1. 3. Plant parts of the plant of claim
 2. 4. The plant parts of claim 3 wherein the plant parts are pollen or seed.
 5. A tissue culture of the plant of claim
 2. 6. Tissue culture according to claim 5 comprising regenerable cells of a plant part selected from meristematic tissue, anthers, leaves, embryos, pollen, and protoplasts therefrom.
 7. A maize plant regenerated from the regenerable cells of a tissue culture according to claim 6 having all of the physiological and morphological characteristics of inbred maize plant CG5NA01 (ATCC Designation 97477).
 8. An inbred maize plant with all of the genetic, physiological and morphological characteristics of the inbred maize line designated CG5NA01 (ATCC Designation 97477).
 9. A method for producing maize seed comprising crossing a first parent maize plant with a second parent maize plant wherein said first or second parent maize plant is the inbred maize plant having designation CG5NA01 (ATCC Designation 97477) and harvesting the seed produced thereby.
 10. The method of claim 9, wherein said first and second parent maize plants are both from the inbred maize line designated CG5NA01.
 11. A first generation (F₁) maize plant and seed thereof produced by the method of claim
 9. 12. A first generation (F₁) maize plant and seed thereof produced by the method of claim
 10. 13. A first generation (F₁) hybrid maize plant and seed thereof produced by crossing a first inbred female maize plant with a second inbred male maize plant, wherein said first or second parent maize plant is the inbred maize plant having the designation CG5NA01 (ATCC Designation 97477).
 14. The hybrid maize plant and seed thereof of claim 13, wherein said inbred maize plant having the designation CG5NA01 is the female parent.
 15. The hybrid maize plant and seed thereof of claim 13, wherein said inbred maize plant having the designation CG5NA01 is the male parent.
 16. A method for producing first generation (F₁) hybrid maize seed comprising crossing a first inbred parent maize plant with a second inbred parent maize plant, wherein said first or second parent maize plant is the inbred maize plant having the designation CG5NA01 (ATCC Designation 97477), and harvesting the F₁ hybrid seed produced thereby.
 17. A first generation (F₁) hybrid maize plant and seed thereof produced by growing said hybrid maize seed of claim
 16. 